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Biotic stress caused by pests on citrus trees has become a major problem for ecologists around the world, hence the need to develop ecological approaches to surmount this stress. To evaluate the effectiveness of diverse control methods on the pest Panonychus citri and its predators, Euseius stipulatus, Phytoseiulus persimilis, and Typhlodromus sp. Different treatments were applied in orchards planted by Citrus clementina in the Gharb area of Morocco (T0 = treated by water only, T1 = spirodiclofen (the molecular formula is C21H24Cl2O4). 0.5 L/ha, T2 = 5% black soap 125 L/ha, Its ingredients are: argan oil, olive oil, black olive, salt, water, vegetable potash, without chemicals. T3 = mixture of two detergents; Oni product is composed of the following ingredients (sodium C12-13 parenth sulfate, and sodium C14-17 alkyl sec sulfonate) and Tide product with the following ingredients (sodium C10-16 alkylbenzene sulfonate, propylene glycol and sodium borate). Results obtained during the follow-up period showed that the black soap, spirodiclofen, and two detergent treatments provided a decrease in the P. citri population in comparison with plot treated by water during the whole monitoring period. We found 5,044 mobile forms of P. citri in the plot treated by water only, 1,544 forms in the plot treated with spirodiclofen, 3,002 forms in the plot treated with black soap, and 1,567 mobile forms in the plot treated with two detergents. This study demonstrated that all three treatments had a negative effect on the predators that survived in comparison to the control (T0), while the negative impact of spirodiclofen on beneficial phytoseiid mites was greater than that of black soap and detergents. However, the increase in temperature according to the follow-up weeks showed a significant effect on the evolution of the density of the studied mites. Unfortunately, the chemical products like spirodiclofen used against various citrus pests are considered toxic to phytoseiids and to the agro-ecosystem in general. This comparison aims to detect the effectiveness of black soap and mixtures of two detergents on P. citri and their impacts on its predators: E. stipulatus, P. persimilis, and Typhlodromus sp. to replace the use of pesticides by these alternative methods, which remain effective and environmentally friendly.
Biotic stress caused by pests on citrus trees has become a major problem for ecologists around the world, hence the need to develop ecological approaches to surmount this stress. To evaluate the effectiveness of diverse control methods on the pest Panonychus citri and its predators, Euseius stipulatus, Phytoseiulus persimilis, and Typhlodromus sp. Different treatments were applied in orchards planted by Citrus clementina in the Gharb area of Morocco (T0 = treated by water only, T1 = spirodiclofen (the molecular formula is C21H24Cl2O4). 0.5 L/ha, T2 = 5% black soap 125 L/ha, Its ingredients are: argan oil, olive oil, black olive, salt, water, vegetable potash, without chemicals. T3 = mixture of two detergents; Oni product is composed of the following ingredients (sodium C12-13 parenth sulfate, and sodium C14-17 alkyl sec sulfonate) and Tide product with the following ingredients (sodium C10-16 alkylbenzene sulfonate, propylene glycol and sodium borate). Results obtained during the follow-up period showed that the black soap, spirodiclofen, and two detergent treatments provided a decrease in the P. citri population in comparison with plot treated by water during the whole monitoring period. We found 5,044 mobile forms of P. citri in the plot treated by water only, 1,544 forms in the plot treated with spirodiclofen, 3,002 forms in the plot treated with black soap, and 1,567 mobile forms in the plot treated with two detergents. This study demonstrated that all three treatments had a negative effect on the predators that survived in comparison to the control (T0), while the negative impact of spirodiclofen on beneficial phytoseiid mites was greater than that of black soap and detergents. However, the increase in temperature according to the follow-up weeks showed a significant effect on the evolution of the density of the studied mites. Unfortunately, the chemical products like spirodiclofen used against various citrus pests are considered toxic to phytoseiids and to the agro-ecosystem in general. This comparison aims to detect the effectiveness of black soap and mixtures of two detergents on P. citri and their impacts on its predators: E. stipulatus, P. persimilis, and Typhlodromus sp. to replace the use of pesticides by these alternative methods, which remain effective and environmentally friendly.
The almond tree, following the olive tree, holds the distinction of being the fruit species occupying the largest area in Morocco, spanning 128,000 ha and hosting 16 million trees. This sector holds immense socio-economic significance both nationally and globally. Despite its prominence, the almond tree faces severe phytosanitary challenges, prominently among them, the False tiger bug of the almond tree, Monosteira unicostata (Mulsant & Rey [Hemiptera: Tingidae]). This polyphagous, sedentary, and gregarious hemipteran, boasting five larval instars and typically generating four generations annually, exhibits a life cycle duration ranging from 2 to 3 months contingent on the season. This pest inflicts notable harm on almond tree leaves by extracting their chlorophyll content through its piercing mouthparts and depositing excrement, impeding respiratory function and adversely impacting fruit development, maturation, and overall production. Diverse control strategies have been implemented to tackle this issue, commencing with prophylaxis involving resistant varieties and sound agricultural practices. Subsequently, biological control methods leveraging natural enemies such as Piocoris luridus and species from families including Coccinellidae, Anthocoridae, Lygaeidae, Miridae, and Nabidae have been employed. Plant-based biopesticides such as azadirachtin (Azadirachta indica), thyme oil (Thymus zygis), Jatropha oil (Jatropha curcas), and concentrated extracts of Artemisia absinthium, as well as mineral-based approaches involving treated kaolin sprays through particle film technology, contribute to the arsenal of control measures. In cases of severe infestations, synthetic active ingredients such as organophosphates, pyrethroids, carbamates, abamectin, and deltamethrin, among others, have proven efficacy in managing this pest.
To evaluate the effectiveness of eco-friendly treatments based on detergents classified as non-hazardous and black soap on the pest Tetranychus urticae Koch 1836, and their predators (Euseius stipulatus Athias-Henriot, 1960, Typhlodromus sp., Phytoseiulus persimilis Athias-Henriot, 1957), different treatments were applied to citrus orchards planted with Valencia late (Orange) in the Mechraa Belksiri region of Morocco (T0 = control experiment; T1 = spirodiclofen 0.5 L/Ha; T2 = 125 L/Ha (5%) of black soap; T3 = detergent; 4 L/Ha of Oni product + 2 L/Ha of Tide product). The results obtained during the whole monitoring period indicated that the three treatments used, namely spirodiclofen, black soap, and detergents, ensured a reduction in the rate of population of the pest T. urticae compared to the untreated plot. In the untreated plot, the average was 45.01 A± 4.90 mobile forms, while the plot treated with spirodiclofen it was only 21.10 C ± 2.71, the black soap 31.49 B ± 3.35, and in the plot treated with detergents, the average was similar to that obtained by spirodiclofen (22.90 C ± 2.18). On the predators (E. stipulatus, P. persimilis, and Typhlodropmus sp.), the black soap and the treatment with detergents were less harmful compared to the chemical spirodiclofen.
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